Indentation creep studies of iron aluminide intermetallic alloy

Garima Sharma; R. V. Ramanujan; T. R.G. Kutty; N. Prabhu

doi:10.1016/j.intermet.2004.05.008

Indentation creep studies of iron aluminide intermetallic alloy

Garima Sharma^*, R. V. Ramanujan, T. R.G. Kutty, N. Prabhu

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

25 Citations (Scopus)

Abstract

Indentation creep behaviour of iron aluminide intermetallic (Fe-28Al-3Cr) was studied in the temperature range of 843-963 K. The hardness and the plasticity parameter were also calculated from room temperature to 1273 K. The variation of hardness with time showed that the stress exponent (n) was weakly dependent on temperature. Thermal activation parameter-activation area and energy were also calculated to identify the creep mechanism. The activation energy for high temperature creep was found to be in good agreement with that for self-diffusion of pure iron and in excellent agreement with previous studies. These values of n, activation area and activation energy were found to be consistent with dislocation climb as the rate controlling creep mechanism. Conventional creep curves were also derived from hardness values.

Original language	English
Pages (from-to)	47-53
Number of pages	7
Journal	Intermetallics
Volume	13
Issue number	1 SPEC. ISS.
DOIs	https://doi.org/10.1016/j.intermet.2004.05.008
Publication status	Published - Jan 2005
Externally published	Yes

ASJC Scopus Subject Areas

General Chemistry
Mechanics of Materials
Mechanical Engineering
Metals and Alloys
Materials Chemistry

Keywords

A. Iron aluminides (based on FeAl)
B. Creep (properties and mechanisms)
B. Mechanical properties at high temperatures

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10.1016/j.intermet.2004.05.008

Cite this

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title = "Indentation creep studies of iron aluminide intermetallic alloy",

abstract = "Indentation creep behaviour of iron aluminide intermetallic (Fe-28Al-3Cr) was studied in the temperature range of 843-963 K. The hardness and the plasticity parameter were also calculated from room temperature to 1273 K. The variation of hardness with time showed that the stress exponent (n) was weakly dependent on temperature. Thermal activation parameter-activation area and energy were also calculated to identify the creep mechanism. The activation energy for high temperature creep was found to be in good agreement with that for self-diffusion of pure iron and in excellent agreement with previous studies. These values of n, activation area and activation energy were found to be consistent with dislocation climb as the rate controlling creep mechanism. Conventional creep curves were also derived from hardness values.",

keywords = "A. Iron aluminides (based on FeAl), B. Creep (properties and mechanisms), B. Mechanical properties at high temperatures",

author = "Garima Sharma and Ramanujan, {R. V.} and Kutty, {T. R.G.} and N. Prabhu",

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language = "English",

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TY - JOUR

T1 - Indentation creep studies of iron aluminide intermetallic alloy

AU - Sharma, Garima

AU - Ramanujan, R. V.

AU - Kutty, T. R.G.

AU - Prabhu, N.

PY - 2005/1

Y1 - 2005/1

N2 - Indentation creep behaviour of iron aluminide intermetallic (Fe-28Al-3Cr) was studied in the temperature range of 843-963 K. The hardness and the plasticity parameter were also calculated from room temperature to 1273 K. The variation of hardness with time showed that the stress exponent (n) was weakly dependent on temperature. Thermal activation parameter-activation area and energy were also calculated to identify the creep mechanism. The activation energy for high temperature creep was found to be in good agreement with that for self-diffusion of pure iron and in excellent agreement with previous studies. These values of n, activation area and activation energy were found to be consistent with dislocation climb as the rate controlling creep mechanism. Conventional creep curves were also derived from hardness values.

AB - Indentation creep behaviour of iron aluminide intermetallic (Fe-28Al-3Cr) was studied in the temperature range of 843-963 K. The hardness and the plasticity parameter were also calculated from room temperature to 1273 K. The variation of hardness with time showed that the stress exponent (n) was weakly dependent on temperature. Thermal activation parameter-activation area and energy were also calculated to identify the creep mechanism. The activation energy for high temperature creep was found to be in good agreement with that for self-diffusion of pure iron and in excellent agreement with previous studies. These values of n, activation area and activation energy were found to be consistent with dislocation climb as the rate controlling creep mechanism. Conventional creep curves were also derived from hardness values.

KW - A. Iron aluminides (based on FeAl)

KW - B. Creep (properties and mechanisms)

KW - B. Mechanical properties at high temperatures

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DO - 10.1016/j.intermet.2004.05.008

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JO - Intermetallics

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IS - 1 SPEC. ISS.

ER -

Indentation creep studies of iron aluminide intermetallic alloy

Abstract

ASJC Scopus Subject Areas

Keywords

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